Answer:
Salmonella enterica (bacteria that causes food poisoning).
Explanation:
All living organisms has been classified into a main large group called DOMAIN consisting of three classifications: Eukarya, Archaea and Bacteria. The major basis of this classification is the possession of a true nucleus that houses the genetic material in the cells of living organisms.
Organisms that possesses a membrane-bound nucleus were classified to be under the domain Eukarya while those that didn't possess a nucleus were classified as Prokarya, which consists of the bacteria and archaea domains.
Based on the question, Salmonella enterica is a bacterium species, which means that it is a Prokarya and does not possess a membrane bound nucleus, hence, it would not be classified under the domain EUKARYA.
Ok so choose 2 ecosystems which is not that hard aquatic and terrestrial research your information on the sight i can not do the work for you, don't forget to check your spelling and punctuation
C is the answer, enzymes increase the rate of chemical reactions in a cell.
Answer:
the frequency of the wave is 2 hertz
Explanation:
Frequency is defined as the number of cycle of waves that occur in one second.
Here the total number of cycle is equal to 10
The total time in which these 10 cycles occur is equal to 5 seconds
Now, mathematically frequency is equal to
where is equal to number of cycles
and t is time
Putting the given values in above equation we get -
hertzs
Either through conventional nucleoside triphosphorylation or through aqueous production of 2′-deoxyribonucleoside triphosphates (dNTPs).
<h3>Deoxyribonucleotides are produced in what ways?</h3>
A purine or pyrimidine base is joined to deoxyribose, which is then joined to a phosphate group, to form deoxyribonucleotides. By reducing ribonucleoside diphosphates, they are created.
<h3 /><h3>How does radioactive DNA become made?</h3>
Sanger started synthesising new DNA strands from single-strand templates with the enzyme DNA polymerase while incorporating radioactive nucleotides into the new DNA. A primer that can bind to a recognised area of the template strand is necessary for DNA polymerase. Early success was constrained by the absence of appropriate primers.
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